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11.
Cell death induced by Pteris semipinnata L. is associated with p53 and oxidant stress in gastric cancer cells 总被引:4,自引:0,他引:4
In this study, we demonstrated that Ent-11alpha-hydroxy-15-oxo-kaur-16-en-19-oic-acid (5F) had stronger cytotoxicity against MKN-45, a gastric cancer cell line bearing wild-type p53 than MKN-28, another gastric cancer cell line containing missense mutation in p53. The rapid increase of ROS level was involved in the mechanism of cytotoxicity. Classical features of apoptosis induced by 5F were observed in MKN-45 cells only or more significant in MKN-45 cells than MKN-28 cells. Translocation of Bax from cytosol to mitochondria, reduction of delta psi m and DNA fragmentation were induced by 5F in the p53-dependent manner. We conclude that the expression of Bax and its downstream molecules requires the presentation of a wild-type p53 in the cells treated by 5F. 相似文献
12.
Dragon's blood may have radioprotective effects in radiation-induced rat brain injury 总被引:2,自引:0,他引:2
13.
Yongjing He Zhenjun Deng Mansour Alghamdi Lechun Lu Mark W. Fear Li He 《Cell proliferation》2017,50(2)
Keloid scarring is a dermal fibroproliferative response characterized by excessive and progressive deposition of collagen; aetiology and molecular pathology underlying keloid formation and progression remain unclear. Genetic predisposition is important in the pathogenic processes of keloid formation, however, environmental factors and epigenetic mechanisms may also play pivotal roles. Epigenetic modification is a recent area of investigation in understanding the molecular pathogenesis of keloid scarring and there is increasing evidence that epigenetic changes may play a role in induction and persistent activation of fibroblasts in keloid scars. Here we have reviewed three epigenetic mechanisms: DNA methylation, histone modification and the role of non‐coding RNAs. We also review the evidence that these mechanisms may play a role in keloid formation ‐ in future, it may be possible that epigenetic markers may be used instead of prognostic or diagnostic markers here. However, there is a significant amount of work required to increase our current understanding of the role of epigenetic modification in keloid disease. 相似文献
14.
Nantermet PG Burgey CS Robinson KA Pellicore JM Newton CL Deng JZ Selnick HG Lewis SD Lucas BJ Krueger JA Miller-Stein C White RB Wong B McMasters DR Wallace AA Lynch JJ Yan Y Chen Z Kuo L Gardell SJ Shafer JA Vacca JP Lyle TA 《Bioorganic & medicinal chemistry letters》2005,15(11):2771-2775
In this study, we have demonstrated that the critical hydrogen bonding motif of the established 3-aminopyrazinone thrombin inhibitors can be effectively mimicked by a 2-aminopyridine N-oxide. As this peptidomimetic core is more resistant toward oxidative metabolism, it also overcomes the metabolic liability associated with the pyrazinones. An optimization study of the P(1) benzylamide delivered the potent thrombin inhibitor 21 (K(i) = 3.2 nM, 2xaPTT = 360 nM), which exhibited good plasma levels and half-life after oral dosing in the dog (C(max) = 2.6 microM, t(1/2) = 4.5 h). 相似文献
15.
Improving microbial fitness in the mammalian gut by in vivo temporal functional metagenomics 下载免费PDF全文
Stephanie J Yaung Luxue Deng Ning Li Jonathan L Braff George M Church Lynn Bry Harris H Wang Georg K Gerber 《Molecular systems biology》2015,11(3)
Elucidating functions of commensal microbial genes in the mammalian gut is challenging because many commensals are recalcitrant to laboratory cultivation and genetic manipulation. We present Temporal FUnctional Metagenomics sequencing (TFUMseq), a platform to functionally mine bacterial genomes for genes that contribute to fitness of commensal bacteria in vivo. Our approach uses metagenomic DNA to construct large‐scale heterologous expression libraries that are tracked over time in vivo by deep sequencing and computational methods. To demonstrate our approach, we built a TFUMseq plasmid library using the gut commensal Bacteroides thetaiotaomicron (Bt) and introduced Escherichia coli carrying this library into germfree mice. Population dynamics of library clones revealed Bt genes conferring significant fitness advantages in E. coli over time, including carbohydrate utilization genes, with a Bt galactokinase central to early colonization, and subsequent dominance by a Bt glycoside hydrolase enabling sucrose metabolism coupled with co‐evolution of the plasmid library and E. coli genome driving increased galactose utilization. Our findings highlight the utility of functional metagenomics for engineering commensal bacteria with improved properties, including expanded colonization capabilities in vivo. 相似文献
16.
The role of hydrogen peroxide (H(2)O(2)) in abscisic acid (ABA)-induced anthocyanin accumulation in detached and intact leaves of rice seedlings was investigated. Treatment with ABA resulted in an accumulation of anthocyanins in detached rice leaves. Dimethylthiourea, a chemical trap for H(2)O(2), was observed to be effective in inhibiting ABA-induced accumulation of anthocyanins. Inhibitors of NADPH oxidase (diphenyleneiodonium chloride and imidazole), phosphatidylinositol 3-kinase (wortmannin and LY 294002), and a donor of nitric oxide (N-tert-butyl-alpha-phenylnitrone), which have previously been shown to prevent ABA-induced H(2)O(2) accumulation in detached rice leaves, inhibited ABA-induced anthocyanin increase. Exogenous application of H(2)O(2), however, was found to increase the anthocyanin content of detached rice leaves. In terms of H(2)O(2) accumulation, intact (attached) leaves of rice seedlings of cultivar Taichung Native 1 (TN1) are ABA sensitive and those of cultivar Tainung 67 (TNG67) are ABA insensitive. Upon treatment with ABA, H(2)O(2) and anthocyanins accumulated in leaves of TN1 seedlings but not in leaves of TNG67. Our results, obtained from detached and intact leaves of rice seedlings, suggest that H(2)O(2) is involved in ABA-induced anthocyanin accumulation in this species. 相似文献
17.
Overexpression of an Arabidopsis magnesium transport gene, AtMGT1, in Nicotiana benthamiana confers Al tolerance 总被引:2,自引:0,他引:2
Deng W Luo K Li D Zheng X Wei X Smith W Thammina C Lu L Li Y Pei Y 《Journal of experimental botany》2006,57(15):4235-4243
Aluminium (Al) toxicity is the most important limiting factor for crop production in acid soil environments worldwide. In some plant species, application of magnesium (Mg(2+)) can alleviate Al toxicity. However, it remains unknown whether overexpression of magnesium transport proteins can improve Al tolerance. Here, the role of AtMGT1, a member of the Arabidopsis magnesium transport family involved in Mg(2+) transport, played in Al tolerance in higher plants was investigated. Expression of 35S::AtMGT1 led to various phenotypic alterations in Nicotiana benthamiana plants. Transgenic plants harbouring 35S::AtMGT1 exhibited tolerance to Mg(2+) deficiency. Element assay showed that the contents of Mg, Mn, and Fe in 35S::AtMGT1 plants increased compared with wild-type plants. Root growth experiment revealed that 100 microM AlCl(3) caused a reduction in root elongation by 47% in transgenic lines, whereas root growth in wild-type plants was inhibited completely. Upon Al treatment, representative transgenic lines also showed a much lower callose deposition, an indicator of increased Al tolerance, than wild-type plants. Taken together, the results have demonstrated that overexpression of ATMGT1 encoding a magnesium transport protein can improve tolerance to Al in higher plants. 相似文献
18.
Increased versican expression in breast tumors is predictive of relapse and has negative impact on survival rates. The C-terminal G3 domain of versican influences local and systemic tumor invasiveness in pre-clinical murine models. However, the mechanism(s) by which G3 influences breast tumor growth and metastasis is not well characterized. Here we evaluated the expression of versican in mouse mammary tumor cell lines observing that 4T1 cells expressed highest levels while 66c14 cells expressed low levels. We exogenously expressed a G3 construct in 66c14 cells and analyzed its effects on cell proliferation, migration, cell cycle progression, and EGFR signaling. Experiments in a syngeneic orthotopic animal model demonstrated that G3 promoted tumor growth and systemic metastasis in vivo. Activation of pERK correlated with high levels of G3 expression. In vitro, G3 enhanced breast cancer cell proliferation and migration by up-regulating EGFR signaling, and enhanced cell motility through chemotactic mechanisms to bone stromal cells, which was prevented by inhibitor AG 1478. G3 expressing cells demonstrated increased CDK2 and GSK-3β (S9P) expression, which were related to cell growth. The activity of G3 on mouse mammary tumor cell growth, migration and its effect on spontaneous metastasis to bone in an orthotopic model was modulated by up-regulating the EGFR-mediated signaling pathway. Taken together, EGFR-signaling appears to be an important pathway in versican G3-mediated breast cancer tumor invasiveness and metastasis. 相似文献
19.
Changhui Deng Xinghua Xiong Andrew N. Krutchinsky 《Molecular & cellular proteomics : MCP》2009,8(6):1413-1423
We have developed and applied a method unifying fluorescence microscopy and mass spectrometry for studying spatial and temporal properties of proteins and protein complexes in yeast cells. To combine the techniques, first we produced a variety of DNA constructs that can be used for genomic tagging of proteins with modular fluorescent and affinity tags. The modular tag consists of one of the multiple versions of monomeric fluorescent proteins fused to a variety of small affinity epitopes. After this step we tested the constructs by tagging two yeast proteins, Pil1 and Lsp1, the core components of eisosomes, the large protein complexes involved in endocytosis in Saccharomyces cerevisiae, with a variety of fluorescent and affinity probes. Among the modular tags produced we found several combinations that were optimal for determining subcellular localization and for purifying the tagged proteins and protein complexes for the detailed analysis by mass spectrometry. And finally, we applied the designed method for finding the new protein components of eisosomes and for gaining new insights into molecular mechanisms regulating eisosome assembly and disassembly by reversible phosphorylation and dephosphorylation. Our results indicate that this approach combining fluorescence microscopy and mass spectrometry into a single method provides a unique perspective into molecular mechanisms regulating composition and dynamic properties of the protein complexes in living cells.Fluorescent proteins have become invaluable probes for studying molecular processes in living cells with light microscopy techniques (1–3). Proteins, organelles, and entire cells can be selectively visualized using a variety of fluorescent proteins fused to the proteins of interest (1–6). Combined with genetics and molecular biology techniques fluorescence microscopy provides an efficient tool for observing molecular phenotypes useful for dissecting the pathways of cell cycle progression and cell response to internal and external signals (7). However, understanding the mechanism controlling the properties of proteins in cells can be a challenging task, frequently requiring a comprehensive characterization of the proteins at the molecular level.The proteins tagged with green fluorescent protein (GFP)1 can be also purified using GFP antibodies. Cheeseman and Desai (8) and Cristea et al. (9) have enriched GFP-tagged proteins and protein complexes for further detailed analysis by MS. The MS-based methods for protein analysis are fast, sensitive, and able to identify both proteins in complex protein mixtures and residues bearing post-translational modifications (10, 11). Thus, the addition of affinity purification and mass spectrometry steps enabled the researchers to study protein interactions and the post-translational modifications in the context of the protein subcellular localization. Juxtaposition of the protein localization, composition of the protein complexes, and post-translational modifications frequently yield a unique perspective of the cellular processes and the molecular mechanisms of their regulation (12, 13).Using fluorescent proteins also as affinity probes can be problematic in several instances. First of all, the good quality antibodies against the rapidly increasing number of fluorescent proteins (3, 6) are not yet readily available. Furthermore raising antibodies specifically recognizing fluorescent proteins originating from the same organism but fluorescing a different color can be difficult or even impossible because such proteins frequently differ by mutations of only a few amino acids (1–6). Thus, we seek an alternative approach to the design of tags suitable for subcellular localization and purification of proteins and protein complexes that is 1) independent of the availability of antibody to a specific form of a fluorescent protein, 2) suitable for multiplexing, i.e. simultaneous observation of subcellular localization of several proteins and affinity purification of the proteins and stably associated protein complexes, and 3) flexible and easy to modify to incorporate better versions of fluorescent proteins and affinity tags after they are discovered.One possible solution that satisfies the stated requirements is to use a modular tag containing a version of a fluorescent protein fused to an affinity epitope. In this case we can decouple requirements for both modules and optimize the performance of each one independently for fluorescence microscopy and affinity purification experiments. To our knowledge, this possibility was first realized by Thorn and co-worker (14) who have fused 3HA (three repeats of YPYDVPDYA epitope from hemagglutinin protein) and 13MYC (13 repeats of EQKLISEEDL epitope, corresponding to a stretch of the C-terminal amino acids of the human c-MYC protein) tags to several variants of fluorescent proteins. The authors have argued that the fusion of the fluorescent proteins to the affinity epitopes may enable fluorescence and immunochemical analysis but did not test this idea. Cheeseman and Desai (8) fused the S-peptide and hexahistidine epitopes to the GFP protein to enable additional tandem purification steps. Su and co-workers (15) also fused a hexahistidine tag (His6) to GFP to purify recombinantly produced proteins. Although hexahistidine tag performs well for isolation of overexpressed recombinant proteins, it works poorly for affinity purification of low abundance, endogenously expressed proteins (16). A double affinity tag containing a single MYC epitope and hexahistidine was also used to purify recombinantly produced fluorescent proteins (6).Here we describe the design and implementation of the modular fluorescent and affinity tags. These tags contain a variety of fluorescent proteins, which can be used exclusively for obtaining subcellular visualization, and several small epitope tags that can be utilized to perform two-step affinity purification. To test the performance of the constructs produced, we tagged two yeast proteins, Pil1 and Lsp1, the core components of eisosomes, with a variety of modular tags.Eisosomes are large heterodimeric protein complexes recently discovered in Saccharomyces cerevisiae (17). There are ∼50–100 eisosomes in each mature yeast cell distributed uniformly in a characteristic dotted pattern at the cell surface periphery. Each eisosome contains ∼2000–5000 copies of Pil1 and Lsp1. It was shown that eisosomes serve as portals of endocytosis in yeast. The function of eisosomes is regulated by reversible phosphorylation (18, 19).Among the constructs tested, we found several combinations of fluorescent protein and affinity tags that were optimal for determining subcellular localization and purification of the proteins and protein complexes. We applied these tags to further investigate eisosomes and found several new protein components of the complexes and obtained new insights into molecular mechanisms regulating eisosome integrity by reversible phosphorylation and dephosphorylation. Our results indicate that an approach combining fluorescence microscopy and mass spectrometry into a single method provides a unique perspective into molecular mechanisms regulating composition and dynamic properties of the protein complexes in living cells. 相似文献
20.
Diversity of endophytic bacteria within nodules of the Sphaerophysa salsula in different regions of Loess Plateau in China 总被引:1,自引:0,他引:1
Deng ZS Zhao LF Kong ZY Yang WQ Lindström K Wang ET Wei GH 《FEMS microbiology ecology》2011,76(3):463-475
A total of 115 endophytic bacteria were isolated from root nodules of the wild legume Sphaerophysa salsula grown in two ecological regions of Loess Plateau in China. The genetic diversity and phylogeny of the strains were revealed by restriction fragment length polymorphism and sequencing of 16S rRNA gene and enterobacterial repetitive intergenic consensus-PCR. Their symbiotic capacity was checked by nodulation tests and analysis of nifH gene sequence. This is the first systematic study on endophytic bacteria associated with S. salsula root nodules. Fifty of the strains found were symbiotic bacteria belonging to eight putative species in the genera Mesorhizobium, Rhizobium and Sinorhizobium, harboring similar nifH genes; Mesorhizobium gobiense was the main group and 65 strains were nonsymbiotic bacteria related to 17 species in the genera Paracoccus, Sphingomonas, Inquilinus, Pseudomonas, Serratia, Mycobacterium, Nocardia, Streptomyces, Paenibacillus, Brevibacillus, Staphylococcus, Lysinibacillus and Bacillus, which were universally coexistent with symbiotic bacteria in the nodules. Differing from other similar studies, the present study is the first time that symbiotic and nonsymbiotic bacteria have been simultaneously isolated from the same root nodules, offering the possibility to accurately reveal the correlation between these two kinds of bacteria. These results provide valuable information about the interactions among the symbiotic bacteria, nonsymbiotic bacteria and their habitats. 相似文献